Real time intrusion detection system for ultra-high-speed big data environments

Abstract

In recent years, the number of people using the Internet and network services is increasing day by day. On a daily basis, a large amount of data is generated over the Internet from zeta byte to petabytes with a very high speed. On the other hand, we see more security threats on the network, the Internet, websites, and the enterprise network. Therefore, detecting intrusion in such ultra-high-speed environment in real time is a challenging task. Many intrusion detection systems (IDSs) are proposed for various types of network attacks using machine learning approaches. Most of them are unable to detect recent unknown attacks, whereas the others do not provide a real-time solution to overcome the above-mentioned challenges. Therefore, to address these problems, we propose a real-time intrusion detection system for ultra-high-speed big data environment using Hadoop implementation. The proposed system includes four-layered IDS architecture, which consists of the capturing layer, filtration and load balancing layer, processing or Hadoop layer, and the decision-making layer. Furthermore, feature selection scheme is proposed that selects nine parameters for classification using (FSR) and (BER), as well as from the analysis of DARPA datasets. In addition, five major machine learning approaches are used to evaluate the proposed system including J48, REPTree, random forest tree, conjunctive rule, support vector machine, and Naïve Bayes classifiers. Results show that among all these classifiers, REPTree and J48 are the best classifiers in terms of accuracy as well as efficiency. The proposed system architecture is evaluated with respect to accuracy in terms of true positive (TP) and false positive (FP), with respect to efficiency in terms of processing time and by comparing results with traditional techniques. It has more than 99 % TP and less than 0.001 % FP on REPTree and J48. The system has overall higher accuracy than existing IDSs with the capability to work in real time in ultra-high-speed big data environment.

Keywords

Notes

Acknowledgments

This study was supported by the Brain Korea 21 Plus project (SW Human Resource Development Program for Supporting Smart Life) funded by Ministry of Education, School of Computer Science and Engineering, Kyungpook National University, Korea (21A20131600005). This work is also supported by Institute for Information and Communication Technology Promotion(IITP) Grant funded by the Korean government (MSIP). [No. 10041145, Self-Organized Software Platform (SoSp) for Welfare Devices].

Wai FH, Aye YN, James NH (2005) Intrusion detection in wireless ad-hoc networks. CS4274, Introduction to Mobile Computing, term paper, School of Computing, National University of SingaporeGoogle Scholar